Ti-6-al4v titanium bar M bright surface
The indefinite length of the processed bar is 300-6000mm, and the length of the bar in the annealed state is 300-2000mm. The length of the ruler or the ruler should be within the length of the indefinite length. The allowable deviation of the length of the ruler is +20mm;
ASTM B348 TITANIUM BAR GR2 PURE TI ROD Appilication:aerospace, aviation, marine, ship, desalination, petroleum, chemical, mechanical equipment, nuclear power equipment, electrical equipment, automobile and motorcycle parts, sports and leisure, medical parts, steel and metallurgy, high-tech fields
Gr5 materials can be welded in a variety of forms with a weld joint strength up to 90% of the base metal strength. The machining performance is still good, and it is necessary to use carbide tools, large amount of cutter, slow speed, and sufficient cooling. Good corrosion resistance and good thermal stability.
Due to its light weight, metal titanium has higher strength than aluminum alloy and can maintain high strength compared with aluminum at high temperature, which is highly valued by the aviation industry. Industrial pure titanium contains appropriate amount of impurities, has high strength and plasticity, and is suitable for structure. material.
ASTM B348/ASME SB348, ASTMF67, ASTM F136,AMS4928
GR1-GR5, GR6,GR7, GR9, GR11, GR12, TI-6AL-4V, TI-6AL-4VELI,GR23
acid surface or polishing, sand blasted surface
Round, flat, square, hexagonal
Metallurgy, electronics, medical, chemical, petroleum, pharmaceutical, aerospace, etc.
Features of titanium rods:
1. The density is small and light. (4.51) 2, no magnetic. 3, used in -273 ° to 500 ° working environment, high strength. 4: implanted in the human body, there is no exclusion. Titanium rod production grade: American label: GR1, GR2, GR3, GR4, GR5, GR7, GR12, GR23 Titanium rod manufacturing process: Smelting-opening-grinding-forging-rolling-car light/polishing hot forging-hot rolling-car light (buffing) Titanium rods perform standards: American Standard: ASTM B348, ASTM F136, ASTM F67, AMS4928
Titanium material is an important structural metal developed in the 1950s. Titanium alloys are widely used in various fields due to their high specific strength, good corrosion resistance and high heat resistance. Many countries in the world have recognized the importance of titanium alloy materials, which have been researched and developed successively and have been put into practical use. Titanium is a Class IVB element of the periodic table. It looks like steel and has a melting point of 1,672 °C. It is a refractory metal. Titanium is abundant in the earth’s crust, much higher than common metals such as Cu, Zn, Sn and Pb. China’s titanium resources are extremely rich. In the large-scale vanadium-titanium magnetite discovered in the Panzhihua area of Sichuan, the associated titanium metal reserves amount to about 420 million tons, which is close to the sum of foreign proven titanium reserves. Titanium alloys can be classified into heat-resistant alloys, high-strength alloys, corrosion-resistant alloys (titanium-molybdenum, titanium-palladium alloys, etc.), low-temperature alloys, and special functional alloys (titanium-iron hydrogen storage materials and titanium-nickel memory alloys).
Titanium production process: At present, the industrial method for the production of titanium metal is the Raul method, and the product is titanium sponge. The traditional process for making titanium is to melt the sponge titanium into an ingot and then process it into a titanium material. According to this, the main steps from the mining to the process of making titanium are: titanium ore -> mining -> mineral processing -> too concentrate -> enrichment -> titanium-rich material -> chlorination -> coarse TiCl4-> Refined->Pure TiCl4->Magnesium Reduction->Sponge Titanium->Fused Casting->Titanium Ingot->Processing->Titanium or Titanium Parts If the mining process is rutile in the above steps, it is not necessary to carry out enrichment and can directly carry out chlorine. The crude TiCI4 was obtained. In addition, the casting operation should be a metallurgical process, but sometimes it is also classified into the processing technology. The processing in the above process refers to plastic processing and casting. Plastic processing methods include forging, extrusion, rolling, stretching, and the like. It can process titanium ingots into various sizes of cakes, rings, plates, pipes, rods, profiles and other products, and can also be used to make parts and parts of various shapes by casting method. The plastic working of titanium and titanium alloy has large deformation resistance; the plasticity at room temperature, the yield limit and the strength limit ratio are high, the rebound is large, the gap is sensitive, the deformation process is easy to bond with the mold, and the harmful gas is easy to suck when heated. Plastic processing is more difficult than steel and copper. Therefore, the processing of titanium and titanium alloys must take into account these characteristics. Titanium is plastically processed, the size of the soil is not limited, and it can be mass-produced, but the yield is low, and a large amount of waste residue is generated during the processing. In view of the above shortcomings of titanium plastic working, a powder metallurgy process of titanium has been developed in recent years. The powder metallurgy process of titanium is the same as ordinary powder metallurgy, except that the sintering must be carried out under vacuum. It is suitable for the production of large-volume, small-sized parts, especially for the production of complex parts. This method requires almost no processing, and has a high yield. It can fully utilize titanium scrap as a raw material and reduce production costs, but cannot produce large-sized titanium parts. The powder metallurgy process of titanium is: titanium powder (or titanium alloy powder) -> sieve -> mixing -> press forming -> sintering -> auxiliary processing -> titanium products. Principle Process for Titanium Production In addition to pure titanium, titanium has produced nearly 30 grades of titanium alloys in the world. The most widely used titanium alloys are Ti-6Al-4V, Ti-5Al-2.5Sn, etc.
CARACTERÍSTICAS Y APLICACIÓN DEL PRODUCTO. Son comunes las barras de titanio comunes y las de aleación de titanio. Proceso: materias primas – tratamiento preliminar – laminado – tratamiento térmico – enderezado – postratamiento – inspección – embalaje – almacenamiento. A una temperatura normal, el titanio no puede corroerse en una variedad de soluciones ácidas y alcalinas fuertes, incluso Wangshui, no puede corroerlo. Debido a la resistencia a la corrosión del titanio , se utiliza a menudo en la industria química.
제품 기능 및 응용 일반적인 티타늄 봉과 티타늄 합금봉은 일반적으로 사용됩니다. 공정 : 원료 – 예비 처리 – 압연 – 열처리 – 교정 – 후 처리 – 검사 – 포장 – 보관. 상온에서 티타늄은 다양한 강산 및 알칼리 용액에서 부식 될 수 없으며 심지어 왕 수이에서도 부식되지 않습니다. 티타늄의 내 부식성으로 인해 , 그것은 화학 공업에서 수시로 이용된다.
PRODUCT FEATURES AND APPLICATIONS Common titanium rods and rods of titanium alloy are common. Process: raw materials – pretreatment – rolling – heat treatment – straightening – post-processing – inspection – packaging – storage. At normal temperature, titanium cannot corrode in many strong acid and alkaline solutions, even Wangshui, cannot corrode it. Due to the corrosion resistance of titanium, it is often used in the chemical industry.
CARATTERISTICHE E APPLICAZIONI DEL PRODOTTO Sono comuni aste e aste di titanio comuni in lega di titanio. Processo: materie prime – pretrattamento – laminazione – trattamento termico – raddrizzatura – post-elaborazione – ispezione – imballaggio – stoccaggio. A temperatura normale, il titanio non può corrodersi in molte soluzioni fortemente acide e alcaline, persino Wangshui, non può corroderlo. A causa della resistenza alla corrosione del titanio, è spesso utilizzato nell’industria chimica.
ОСОБЕННОСТИ ПРОДУКТА И ПРИМЕНЕНИЕ Общие титановые стержни и стержни из титанового сплава являются общими.Процесс: сырье – предварительная обработка – прокатка – термообработка – правка – последующая обработка – осмотр – упаковка – хранение. При нормальной температуре титан не может подвергаться коррозии во множестве сильных кислотных и щелочных растворов, даже Wangshui, не может разъедать его. Из-за коррозионной стойкости титана , часто используется в химической промышленности.
CARACTERÍSTICAS E APLICAÇÕES DO PRODUTO Bastões de titânio comuns e hastes de liga de titânio são comuns. Processo: matérias-primas – pré-tratamento – laminação – tratamento térmico – alisamento – pós-processamento – inspeção – embalagem – armazenamento. À temperatura normal, o titânio não pode corroer em muitas soluções ácidas e alcalinas fortes, mesmo Wangshui, não pode corroi-lo. Devido à resistência à corrosão do titânio, é frequentemente utilizado na indústria química.